22 files changed, 2608 insertions, 0 deletions
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/.esp32.test.skip b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/.esp32.test.skip
new file mode 100644
index 0000000..e69de29
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/.esp32.test.skip
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/.classpath b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/.classpath
new file mode 100644
index 0000000..4426948
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/.classpath
@@ -0,0 +1,7 @@
+<?xml version="1.0" encoding="UTF-8"?>
+<classpath>
+	<classpathentry kind="src" path="src"/>
+	<classpathentry kind="src" path="res"/>
+	<classpathentry kind="con" path="org.eclipse.jdt.launching.JRE_CONTAINER/net.rim.ejde.BlackBerryVMInstallType/BlackBerry JRE 7.0.0"/>
+	<classpathentry kind="output" path="bin"/>
+</classpath>
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/.project b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/.project
new file mode 100644
index 0000000..1a8239a
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/.project
@@ -0,0 +1,29 @@
+<?xml version="1.0" encoding="UTF-8"?>
+<projectDescription>
+	<name>TargetEmulation</name>
+	<comment></comment>
+	<projects>
+	</projects>
+	<buildSpec>
+		<buildCommand>
+			<name>net.rim.ejde.internal.builder.BlackBerryPreprocessBuilder</name>
+			<arguments>
+			</arguments>
+		</buildCommand>
+		<buildCommand>
+			<name>net.rim.ejde.internal.builder.BlackBerryResourcesBuilder</name>
+			<arguments>
+			</arguments>
+		</buildCommand>
+		<buildCommand>
+			<name>org.eclipse.jdt.core.javabuilder</name>
+			<arguments>
+			</arguments>
+		</buildCommand>
+	</buildSpec>
+	<natures>
+		<nature>net.rim.ejde.BlackBerryPreProcessNature</nature>
+		<nature>net.rim.ejde.BlackBerryProjectCoreNature</nature>
+		<nature>org.eclipse.jdt.core.javanature</nature>
+	</natures>
+</projectDescription>
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/.settings/org.eclipse.jdt.core.prefs b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/.settings/org.eclipse.jdt.core.prefs
new file mode 100644
index 0000000..3f59a3e
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/.settings/org.eclipse.jdt.core.prefs
@@ -0,0 +1,12 @@
+#Fri Jun 22 00:02:13 EDT 2012
+eclipse.preferences.version=1
+org.eclipse.jdt.core.compiler.codegen.inlineJsrBytecode=disabled
+org.eclipse.jdt.core.compiler.codegen.targetPlatform=1.2
+org.eclipse.jdt.core.compiler.codegen.unusedLocal=preserve
+org.eclipse.jdt.core.compiler.compliance=1.4
+org.eclipse.jdt.core.compiler.debug.lineNumber=generate
+org.eclipse.jdt.core.compiler.debug.localVariable=generate
+org.eclipse.jdt.core.compiler.debug.sourceFile=generate
+org.eclipse.jdt.core.compiler.problem.assertIdentifier=ignore
+org.eclipse.jdt.core.compiler.problem.enumIdentifier=ignore
+org.eclipse.jdt.core.compiler.source=1.3
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/BlackBerry_App_Descriptor.xml b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/BlackBerry_App_Descriptor.xml
new file mode 100644
index 0000000..aa610d2
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/BlackBerry_App_Descriptor.xml
@@ -0,0 +1,40 @@
+<!--
+  
+   Copyright (c) 2013 Research In Motion Limited.
+  
+   Licensed under the Apache License, Version 2.0 (the "License");
+   you may not use this file except in compliance with the License.
+   You may obtain a copy of the License at
+  
+   http://www.apache.org/licenses/LICENSE-2.0
+  
+   Unless required by applicable law or agreed to in writing, software
+   distributed under the License is distributed on an "AS IS" BASIS,
+   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+   See the License for the specific language governing permissions and
+   limitations under the License.
+  
+-->
+<!-- This file has been generated by the BlackBerry Plugin for Eclipse v3.6.0. -->
+
+<Properties ModelVersion="1.1.2">
+  <General Title="" Version="1.0.0" Vendor="BlackBerry Developer" Description=""/>
+  <Application Type="BlackBerry Application" MainMIDletName="" MainArgs="" HomeScreenPosition="0" StartupTier="7" IsSystemModule="false" IsAutostartup="false"/>
+  <Resources hasTitleResource="false" TitleResourceBundleName="" TitleResourceBundleRelativePath="" TitleResourceBundleClassName="" TitleResourceBundleKey="" DescriptionId="">
+    <Icons>
+      <Icon CanonicalFileName="res\img\icon.png" IsFocus="false"/>
+    </Icons>
+  </Resources>
+  <KeywordResources KeywordResourceBundleName="" KeywordResourceBundleRelativePath="" KeywordResourceBundleClassName="" KeywordResourceBundleKey=""/>
+  <Compile OutputCompilerMessages="false" ConvertImages="true" CreateWarningForNoExportedRoutine="true" CompressResources="false" AliasList="">
+    <PreprocessorDefines/>
+  </Compile>
+  <Packaging PreBuildStep="" PostBuildStep="" CleanStep="" OutputFileName="TargetEmulation" OutputFolder="deliverables" GenerateALXFile="true">
+    <AlxFiles/>
+  </Packaging>
+  <HiddenProperties>
+    <ClassProtection/>
+    <PackageProtection/>
+  </HiddenProperties>
+  <AlternateEntryPoints/>
+</Properties>
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/build.xml b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/build.xml
new file mode 100644
index 0000000..72bf0c3
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/build.xml
@@ -0,0 +1,35 @@
+<!--
+  
+   Copyright (c) 2013 Research In Motion Limited.
+  
+   Licensed under the Apache License, Version 2.0 (the "License");
+   you may not use this file except in compliance with the License.
+   You may obtain a copy of the License at
+  
+   http://www.apache.org/licenses/LICENSE-2.0
+  
+   Unless required by applicable law or agreed to in writing, software
+   distributed under the License is distributed on an "AS IS" BASIS,
+   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+   See the License for the specific language governing permissions and
+   limitations under the License.
+  
+-->
+<project default="all">
+	<property name="jde.path" value="c:/Program Files/Research In Motion/BlackBerry JDE 7.1.0" />
+	<target name="all" depends="sign,deploy">
+	</target>
+
+	<target name="sign">
+		<java failonerror="true" fork="true"
+			jar="c:/Program Files/Research In Motion/BlackBerry JDE 7.1.0/bin/SignatureTool.jar" args="-p s0ftc0ck -a -c deliverables/Standard/7.0.0/TargetEmulation.cod">
+		</java>
+	</target>
+	<target name="deploy">
+		<exec executable="${jde.path}/bin/JavaLoader.exe">
+			<arg value="-wpasscc" />
+			<arg value="load" />
+			<arg value="deliverables/Standard/7.0.0/TargetEmulation.cod" />
+		</exec>
+	</target>
+</project>
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/src/mypackage/ColorMixer.java b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/src/mypackage/ColorMixer.java
new file mode 100644
index 0000000..d81f802
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/src/mypackage/ColorMixer.java
@@ -0,0 +1,152 @@
+/**  
+   Copyright (c) 2011, 2012, 2013 Research In Motion Limited.
+  
+   Licensed under the Apache License, Version 2.0 (the "License");
+   you may not use this file except in compliance with the License.
+   You may obtain a copy of the License at
+  
+   http://www.apache.org/licenses/LICENSE-2.0
+  
+   Unless required by applicable law or agreed to in writing, software
+   distributed under the License is distributed on an "AS IS" BASIS,
+   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+   See the License for the specific language governing permissions and
+   limitations under the License.
+**/
+package mypackage;
+
+import net.rim.device.api.ui.Field;
+import net.rim.device.api.ui.Graphics;
+import net.rim.device.api.ui.TouchEvent;
+
+public class ColorMixer extends Field {
+    private static final int[] colors = new int[] { 0xff0000, 0xff00, 0xff };
+    private int barGap = 5;
+
+    private int barHeight = 64;
+    private int color;
+    private MyScreen owner;
+
+    private double r, g, b;
+
+    public ColorMixer(MyScreen owner) {
+        this.owner = owner;
+    }
+
+    protected void layout(int width, int height) {
+        setExtent(640, barHeight * 3 + barGap * 2);
+    }
+
+    protected void paint(Graphics graphics) {
+        int barWidth = getWidth() - barHeight * 3 - barGap * 3;
+        double[] values = new double[] { r, g, b };
+
+        // Draw color sliders
+        for (int i = 0; i < 3; ++i) {
+            int top = i * (barHeight + barGap);
+            int toDraw = (int) (values[i] * barWidth + 0.5);
+            graphics.setColor(0);
+            graphics.fillRect(toDraw, top, barWidth - toDraw, barHeight);
+
+            graphics.setColor(colors[i]);
+            graphics.fillRect(0, top, toDraw, barHeight);
+
+            graphics.setColor(0x7f7f7f);
+            graphics.drawRect(0, top, barWidth, barHeight);
+        }
+
+        // Draw mixed down color
+        int boxWidth = barHeight * 3 + barGap * 2;
+        graphics.setColor(color);
+        graphics.fillRect(getWidth() - 1 - boxWidth, 0, boxWidth, boxWidth);
+
+        graphics.setColor(0x7f7f7f);
+        graphics.drawRect(getWidth() - 1 - boxWidth, 0, boxWidth, boxWidth);
+    }
+
+    public void setColor(int color) {
+        if (color != this.color) {
+            this.color = color;
+            r = ((color >> 16) & 0xff) / 255.0;
+            g = ((color >> 8) & 0xff) / 255.0;
+            b = (color & 0xff) / 255.0;
+            invalidate();
+        }
+    }
+
+    private void setPart(int which, double value) {
+        double source = which == 0 ? r : which == 1 ? g : b;
+        if (value == source) {
+            return;
+        }
+        int bv = (int) (value * 255 + 0.5);
+        bv &= 0xff;
+        if (which == 0) {
+            r = value;
+            color &= 0xffff;
+            color |= bv << 16;
+        } else if (which == 1) {
+            g = value;
+            color &= 0xff00ff;
+            color |= bv << 8;
+        } else {
+            b = value;
+            color &= 0xffff00;
+            color |= bv;
+        }
+        owner.setColor(color);
+        invalidate();
+    }
+
+    private int touchTarget = -1;
+
+    protected boolean touchEvent(TouchEvent message) {
+        int event = message.getEvent();
+
+        int x = message.getX(1);
+        int y = message.getY(1);
+
+        int barWidth = getWidth() - barHeight * 3 - barGap * 3;
+
+        if (event == TouchEvent.UP) {
+            touchTarget = -1;
+            return false;
+        } else if (event == TouchEvent.DOWN) {
+            if (y < -5 || y > getWidth() + 5) {
+                return false;
+            }
+
+            if (x <= barWidth) {
+                for (int i = 0; i < 3; ++i) {
+                    if (y < 0) {
+                        break;
+                    }
+                    if (y < barHeight) {
+                        touchTarget = i;
+                        break;
+                    }
+                    y -= barHeight;
+                    y -= barGap;
+                }
+            } else {
+                return false;
+            }
+        }
+
+        if (touchTarget == -1) {
+            return false;
+        }
+
+        double newValue = 1.0 * x / barWidth;
+        if (newValue < 0) {
+            newValue = 0;
+        }
+        if (newValue > 1) {
+            newValue = 1;
+        }
+
+        setPart(touchTarget, newValue);
+
+        return true;
+    }
+}
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/src/mypackage/MyApp.java b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/src/mypackage/MyApp.java
new file mode 100644
index 0000000..4da1da5
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/src/mypackage/MyApp.java
@@ -0,0 +1,47 @@
+/**  
+   Copyright (c) 2011, 2012, 2013 Research In Motion Limited.
+  
+   Licensed under the Apache License, Version 2.0 (the "License");
+   you may not use this file except in compliance with the License.
+   You may obtain a copy of the License at
+  
+   http://www.apache.org/licenses/LICENSE-2.0
+  
+   Unless required by applicable law or agreed to in writing, software
+   distributed under the License is distributed on an "AS IS" BASIS,
+   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+   See the License for the specific language governing permissions and
+   limitations under the License.
+**/
+package mypackage;
+
+import net.rim.device.api.ui.UiApplication;
+
+/**
+ * This class extends the UiApplication class, providing a
+ * graphical user interface.
+ */
+public class MyApp extends UiApplication
+{
+    /**
+     * Entry point for application
+     * @param args Command line arguments (not used)
+     */ 
+    public static void main(String[] args)
+    {
+        // Create a new instance of the application and make the currently
+        // running thread the application's event dispatch thread.
+        MyApp theApp = new MyApp();       
+        theApp.enterEventDispatcher();
+    }
+    
+
+    /**
+     * Creates a new MyApp object
+     */
+    public MyApp()
+    {        
+        // Push a screen onto the UI stack for rendering.
+        pushScreen(new MyScreen());
+    }    
+}
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/src/mypackage/MyScreen.java b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/src/mypackage/MyScreen.java
new file mode 100644
index 0000000..0f80667
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/BlackBerry7/src/mypackage/MyScreen.java
@@ -0,0 +1,163 @@
+/**  
+   Copyright (c) 2011, 2012, 2013 Research In Motion Limited.
+  
+   Licensed under the Apache License, Version 2.0 (the "License");
+   you may not use this file except in compliance with the License.
+   You may obtain a copy of the License at
+  
+   http://www.apache.org/licenses/LICENSE-2.0
+  
+   Unless required by applicable law or agreed to in writing, software
+   distributed under the License is distributed on an "AS IS" BASIS,
+   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+   See the License for the specific language governing permissions and
+   limitations under the License.
+**/
+package mypackage;
+
+import net.rim.device.api.io.nfc.NFCException;
+import net.rim.device.api.io.nfc.emulation.VirtualISO14443Part4TargetCallback;
+import net.rim.device.api.io.nfc.emulation.VirtualISO14443Part4TypeATarget;
+import net.rim.device.api.ui.Field;
+import net.rim.device.api.ui.FieldChangeListener;
+import net.rim.device.api.ui.component.CheckboxField;
+import net.rim.device.api.ui.component.LabelField;
+import net.rim.device.api.ui.container.MainScreen;
+import net.rim.device.api.ui.decor.BackgroundFactory;
+
+/**
+ * A class extending the MainScreen class, which provides default standard
+ * behavior for BlackBerry GUI applications.
+ */
+public final class MyScreen extends MainScreen implements
+        VirtualISO14443Part4TargetCallback, FieldChangeListener {
+
+    private int color = 0x7f7f7f;
+
+    private boolean colorQueued = false;
+    private CheckboxField colorQueueLocked;
+    private VirtualISO14443Part4TypeATarget emulated;
+    private ColorMixer mixer;
+
+    private LabelField status;
+
+    /**
+     * Creates a new MyScreen object
+     */
+    public MyScreen() {
+        // Set the displayed title of the screen
+        setTitle("Colour Control Setter");
+        setBackground(BackgroundFactory.createSolidBackground(0x3f3f3f));
+
+        add(new LabelField(""));
+        add(colorQueueLocked = new CheckboxField("Lock Color", false));
+        colorQueueLocked.setChangeListener(this);
+
+        add(mixer = new ColorMixer(this));
+        mixer.setColor(0x7f7f7f);
+
+        add(status = new LabelField(""));
+
+        try {
+            emulated = new VirtualISO14443Part4TypeATarget(this, "10451045",
+                    null);
+            log("created");
+            emulated.startEmulation();
+            log("emulating");
+        } catch (NFCException e) {
+            log("Failed to listen");
+            status.setText(e.getClass().getName() + " " + e.getMessage());
+            e.printStackTrace();
+        }
+    }
+
+    // private TextField textField;
+
+    public void fieldChanged(Field field, int context) {
+        if (colorQueueLocked.getChecked()) {
+            setColor(color);
+        } else {
+            colorQueued = false;
+            status.setText("");
+        }
+    }
+
+    private boolean isColorQueueLocked() {
+        return colorQueueLocked.getChecked();
+    }
+
+    protected void log(String message) {
+        System.out.println("SUPERDUPER: " + message);
+        // textField.setText(textField.getText() + "\n" + message);
+    }
+
+    public void onVirtualTargetEvent(int targetEvent) {
+        log("Target event: " + targetEvent);
+    }
+
+    public byte[] processCommand(byte[] command) {
+        byte[] toReturn = processCommandInternal(command);
+        String message = "[" + toString(command) + "," + toString(toReturn)
+                + "]";
+        // status.setText(message);
+        // log(message);
+        return toReturn;
+    }
+
+    private byte[] processCommandInternal(byte[] command) {
+        if (command == null) {
+            return new byte[0];
+        }
+        int messageType = command[0] & 0xff;
+        switch (messageType) {
+        case 1:
+            if (command.length == 4) {
+                int colorIn = (command[1] & 0xff) << 16;
+                colorIn |= (command[2] & 0xff) << 8;
+                colorIn |= (command[3] & 0xff);
+
+                if (colorIn != color) {
+                    if (colorQueued) {
+
+                        byte[] toReturn = new byte[4];
+                        toReturn[0] = 1;
+                        toReturn[1] = (byte) (color >> 16);
+                        toReturn[2] = (byte) (color >> 8);
+                        toReturn[3] = (byte) color;
+
+                        if (!isColorQueueLocked()) {
+                            colorQueued = false;
+                            status.setText("");
+                        }
+
+                        return toReturn;
+                    } else {
+                        this.color = colorIn;
+                        mixer.setColor(colorIn);
+                    }
+                }
+            }
+            break;
+        }
+        return new byte[] { 0 };
+    }
+
+    public void setColor(int color) {
+        colorQueued = true;
+        this.color = color;
+        status.setText("#" + toHex(color));
+    }
+
+    private String toHex(int i) {
+        String toReturn = "000000" + Integer.toString(i, 16);
+        return toReturn.substring(toReturn.length() - 6);
+    }
+
+    private String toString(byte[] command) {
+        String toReturn = "";
+        for (int i = 0; i < command.length; ++i) {
+            toReturn += Integer.toString(command[i] & 0xff, 16) + " ";
+        }
+        return toReturn;
+    }
+}
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/apduToBlackBerry.ino b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/apduToBlackBerry.ino
new file mode 100644
index 0000000..0b5269a
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/apduToBlackBerry/apduToBlackBerry.ino
@@ -0,0 +1,148 @@
+/**
+   Copyright (c) 2011, 2012, 2013 Research In Motion Limited.
+
+   Licensed under the Apache License, Version 2.0 (the "License");
+   you may not use this file except in compliance with the License.
+   You may obtain a copy of the License at
+
+   http://www.apache.org/licenses/LICENSE-2.0
+
+   Unless required by applicable law or agreed to in writing, software
+   distributed under the License is distributed on an "AS IS" BASIS,
+   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+   See the License for the specific language governing permissions and
+   limitations under the License.
+**/
+#include <Wire.h>
+#include <SPI.h>
+#include <Adafruit_PN532.h>
+
+// If using the breakout with SPI, define the pins for SPI communication.
+#define PN532_SCK  (2)
+#define PN532_MOSI (3)
+#define PN532_SS   (4)
+#define PN532_MISO (5)
+
+// If using the breakout or shield with I2C, define just the pins connected
+// to the IRQ and reset lines.  Use the values below (2, 3) for the shield!
+#define PN532_IRQ   (2)
+#define PN532_RESET (3)  // Not connected by default on the NFC Shield
+
+// Uncomment just _one_ line below depending on how your breakout or shield
+// is connected to the Arduino:
+
+// Use this line for a breakout with a SPI connection:
+Adafruit_PN532 nfc(PN532_SCK, PN532_MISO, PN532_MOSI, PN532_SS);
+
+// Use this line for a breakout with a hardware SPI connection.  Note that
+// the PN532 SCK, MOSI, and MISO pins need to be connected to the Arduino's
+// hardware SPI SCK, MOSI, and MISO pins.  On an Arduino Uno these are
+// SCK = 13, MOSI = 11, MISO = 12.  The SS line can be any digital IO pin.
+//Adafruit_PN532 nfc(PN532_SS);
+
+// Or use this line for a breakout or shield with an I2C connection:
+//Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
+
+// PWM LED will be on the following PINs.
+#define R_PIN (9)
+#define G_PIN (10)
+#define B_PIN (11)
+
+// Initial values of RGB.
+uint8_t r = 0x00;
+uint8_t g = 0x00;
+uint8_t b = 0x7f;
+
+/**
+ * Write the current color to the output pins.
+ */
+void showColor() {
+  analogWrite(R_PIN,r);
+  analogWrite(G_PIN,g);
+  analogWrite(B_PIN,b);
+}
+
+
+void setup() {
+  Serial.begin(115200);
+  while (!Serial) delay(10); // for Leonardo/Micro/Zero
+
+  pinMode(R_PIN,OUTPUT);
+  pinMode(G_PIN,OUTPUT);
+  pinMode(B_PIN,OUTPUT);
+  showColor();
+
+  nfc.begin();
+
+  uint32_t versiondata = nfc.getFirmwareVersion();
+  if (! versiondata) {
+    Serial.println("Did not find the shield - locking up");
+    while (true) {
+    }
+  }
+
+  Serial.print("Found chip PN5");
+  Serial.println((versiondata>>24) & 0xFF, HEX);
+  Serial.print("Firmware ver. ");
+  Serial.print((versiondata>>16) & 0xFF, DEC);
+  Serial.print('.');
+  Serial.println((versiondata>>8) & 0xFF, DEC);
+
+  nfc.begin();
+}
+
+uint8_t message[4];
+
+void loop(void) {
+  uint8_t i;
+
+  // Serial.println("Listening...");
+  if (nfc.inListPassiveTarget()) {
+    // Serial.println("Something's there...");
+    while(true) {
+      message[0] = 1;
+      message[1] = r;
+      message[2] = g;
+      message[3] = b;
+      uint8_t responseLength = sizeof(message);
+      if (nfc.inDataExchange(message,sizeof(message),message,&responseLength)) {
+        uint8_t command = message[0];
+        switch(command) {
+        case 0:
+          // NOP
+          break;
+        case 1:
+          if (responseLength==4) {
+            r = message[1];
+            g = message[2];
+            b = message[3];
+            showColor();
+            //Serial.print("Read a color: ");
+            //for (i=0; i<3; ++i) {
+            //  Serial.print(message[i+1],HEX);
+            //  Serial.print(' ');
+            //}
+            //Serial.println();
+          }
+          else {
+            //Serial.println("Doesn't seem to be a color...");
+          }
+          break;
+        default:
+          //Serial.print("Unknown command ");
+          //Serial.println(message[0]);
+          ;
+        }
+        delay(10);
+      }
+      else {
+        //Serial.println("It's gone...");
+        break;
+      }
+    }
+  }
+  else {
+    //Serial.print("Trying again...");
+  }
+}
+
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/iso14443a_uid/iso14443a_uid.ino b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/iso14443a_uid/iso14443a_uid.ino
new file mode 100644
index 0000000..069e73e
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/iso14443a_uid/iso14443a_uid.ino
@@ -0,0 +1,110 @@
+/**************************************************************************/
+/*!
+    @file     iso14443a_uid.pde
+    @author   Adafruit Industries
+	@license  BSD (see license.txt)
+
+    This example will attempt to connect to an ISO14443A
+    card or tag and retrieve some basic information about it
+    that can be used to determine what type of card it is.
+
+    Note that you need the baud rate to be 115200 because we need to print
+	out the data and read from the card at the same time!
+
+This is an example sketch for the Adafruit PN532 NFC/RFID breakout boards
+This library works with the Adafruit NFC breakout
+  ----> https://www.adafruit.com/products/364
+
+Check out the links above for our tutorials and wiring diagrams
+These chips use SPI or I2C to communicate.
+
+Adafruit invests time and resources providing this open source code,
+please support Adafruit and open-source hardware by purchasing
+products from Adafruit!
+
+*/
+/**************************************************************************/
+#include <Wire.h>
+#include <SPI.h>
+#include <Adafruit_PN532.h>
+
+// If using the breakout with SPI, define the pins for SPI communication.
+#define PN532_SCK  (2)
+#define PN532_MOSI (3)
+#define PN532_SS   (4)
+#define PN532_MISO (5)
+
+// If using the breakout or shield with I2C, define just the pins connected
+// to the IRQ and reset lines.  Use the values below (2, 3) for the shield!
+#define PN532_IRQ   (2)
+#define PN532_RESET (3)  // Not connected by default on the NFC Shield
+
+// Uncomment just _one_ line below depending on how your breakout or shield
+// is connected to the Arduino:
+
+// Use this line for a breakout with a SPI connection:
+Adafruit_PN532 nfc(PN532_SCK, PN532_MISO, PN532_MOSI, PN532_SS);
+
+// Use this line for a breakout with a hardware SPI connection.  Note that
+// the PN532 SCK, MOSI, and MISO pins need to be connected to the Arduino's
+// hardware SPI SCK, MOSI, and MISO pins.  On an Arduino Uno these are
+// SCK = 13, MOSI = 11, MISO = 12.  The SS line can be any digital IO pin.
+//Adafruit_PN532 nfc(PN532_SS);
+
+// Or use this line for a breakout or shield with an I2C connection:
+//Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
+
+void setup(void) {
+  Serial.begin(115200);
+  while (!Serial) delay(10); // for Leonardo/Micro/Zero
+  Serial.println("Hello!");
+
+  nfc.begin();
+
+  uint32_t versiondata = nfc.getFirmwareVersion();
+  if (! versiondata) {
+    Serial.print("Didn't find PN53x board");
+    while (1); // halt
+  }
+
+  // Got ok data, print it out!
+  Serial.print("Found chip PN5"); Serial.println((versiondata>>24) & 0xFF, HEX);
+  Serial.print("Firmware ver. "); Serial.print((versiondata>>16) & 0xFF, DEC);
+  Serial.print('.'); Serial.println((versiondata>>8) & 0xFF, DEC);
+
+  // Set the max number of retry attempts to read from a card
+  // This prevents us from waiting forever for a card, which is
+  // the default behaviour of the PN532.
+  nfc.setPassiveActivationRetries(0xFF);
+
+  Serial.println("Waiting for an ISO14443A card");
+}
+
+void loop(void) {
+  boolean success;
+  uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 };	// Buffer to store the returned UID
+  uint8_t uidLength;				// Length of the UID (4 or 7 bytes depending on ISO14443A card type)
+
+  // Wait for an ISO14443A type cards (Mifare, etc.).  When one is found
+  // 'uid' will be populated with the UID, and uidLength will indicate
+  // if the uid is 4 bytes (Mifare Classic) or 7 bytes (Mifare Ultralight)
+  success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, &uid[0], &uidLength);
+
+  if (success) {
+    Serial.println("Found a card!");
+    Serial.print("UID Length: ");Serial.print(uidLength, DEC);Serial.println(" bytes");
+    Serial.print("UID Value: ");
+    for (uint8_t i=0; i < uidLength; i++)
+    {
+      Serial.print(" 0x");Serial.print(uid[i], HEX);
+    }
+    Serial.println("");
+	// Wait 1 second before continuing
+	delay(1000);
+  }
+  else
+  {
+    // PN532 probably timed out waiting for a card
+    Serial.println("Timed out waiting for a card");
+  }
+}
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/iso14443as_target/iso14443as_target.ino b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/iso14443as_target/iso14443as_target.ino
new file mode 100644
index 0000000..a3a7a2a
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/iso14443as_target/iso14443as_target.ino
@@ -0,0 +1,106 @@
+/**************************************************************************/
+/*!
+    @file     iso14443as_target.pde
+    @original Adafruit Industries
+    @modified Salvador Mendoza(@Netxing)
+    @license  BSD (see license.txt)
+
+    This example will attempt to mimic an ISO14443A smart card
+    and retrieve some basic information from a PoS or terminal,
+    this can be used to establish a communication process.
+
+    Note that you need the baud rate to be 115200 because we need to print
+    out the data and read from the card at the same time!
+
+This is an example sketch for the Adafruit PN532 NFC/RFID breakout boards
+This library works with the Adafruit NFC breakout
+  ----> https://www.adafruit.com/products/364
+
+Check out the links above for our tutorials and wiring diagrams
+These chips use SPI or I2C to communicate.
+
+Adafruit invests time and resources providing this open source code,
+please support Adafruit and open-source hardware by purchasing
+products from Adafruit!
+
+*/
+/**************************************************************************/
+#include <Wire.h>
+#include <SPI.h>
+#include <Adafruit_PN532.h>
+
+// If using the breakout with SPI, define the pins for SPI communication.
+#define PN532_SCK  (2)
+#define PN532_MOSI (3)
+#define PN532_SS   (4)
+#define PN532_MISO (5)
+
+// If using the breakout or shield with I2C, define just the pins connected
+// to the IRQ and reset lines.  Use the values below (2, 3) for the shield!
+#define PN532_IRQ   (2)
+#define PN532_RESET (3)  // Not connected by default on the NFC Shield
+
+// Uncomment just _one_ line below depending on how your breakout or shield
+// is connected to the Arduino:
+
+// Use this line for a breakout with a SPI connection:
+Adafruit_PN532 nfc(PN532_SCK, PN532_MISO, PN532_MOSI, PN532_SS);
+
+// Use this line for a breakout with a hardware SPI connection.  Note that
+// the PN532 SCK, MOSI, and MISO pins need to be connected to the Arduino's
+// hardware SPI SCK, MOSI, and MISO pins.  On an Arduino Uno these are
+// SCK = 13, MOSI = 11, MISO = 12.  The SS line can be any digital IO pin.
+//Adafruit_PN532 nfc(PN532_SS);
+
+// Or use this line for a breakout or shield with an I2C connection:
+//Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
+
+void setup(void) {
+  Serial.begin(115200);
+  while (!Serial) delay(10); // for Leonardo/Micro/Zero
+
+  Serial.println("Hello!");
+
+  nfc.begin();
+
+  uint32_t versiondata = nfc.getFirmwareVersion();
+  if (! versiondata) {
+    Serial.print("Didn't find PN53x board");
+    while (1); // halt
+  }
+
+  // Got ok data, print it out!
+  Serial.print("Found chip PN5"); Serial.println((versiondata>>24) & 0xFF, HEX);
+  Serial.print("Firmware ver. "); Serial.print((versiondata>>16) & 0xFF, DEC);
+  Serial.print('.'); Serial.println((versiondata>>8) & 0xFF, DEC);
+
+  // Set the max number of retry attempts to read from a card
+  // This prevents us from waiting forever for a card, which is
+  // the default behaviour of the PN532.
+  nfc.setPassiveActivationRetries(0xFF);
+
+  Serial.println("As Target... Approach the NFC PN532 Board to a PoS or terminal!");
+  delay(200);
+}
+
+void loop(void) {
+  uint8_t apdubuffer[255] = {}, apdulen = 0;
+  uint8_t ppse[] = {0x8E, 0x6F, 0x23, 0x84, 0x0E, 0x32, 0x50, 0x41, 0x59, 0x2E, 0x53, 0x59, 0x53, 0x2E, 0x44, 0x44, 0x46, 0x30, 0x31, 0xA5, 0x11, 0xBF, 0x0C, 0x0E, 0x61, 0x0C, 0x4F, 0x07, 0xA0, 0x00, 0x00, 0x00, 0x03, 0x10, 0x10, 0x87, 0x01, 0x01, 0x90, 0x00};
+  nfc.AsTarget();
+  (void)nfc.getDataTarget(apdubuffer, &apdulen); //Read initial APDU
+  if (apdulen>0){
+    for (uint8_t i = 0; i < apdulen; i++){
+      Serial.print(" 0x"); Serial.print(apdubuffer[i], HEX);
+    }
+    Serial.println("");
+  }
+  nfc.setDataTarget(ppse, sizeof(ppse));   //Mimic a smart card response with a PPSE APDU
+  nfc.getDataTarget(apdubuffer, &apdulen); //Read respond from the PoS or Terminal
+  if (apdulen>0){
+    for (uint8_t i = 0; i < apdulen; i++){
+      Serial.print(" 0x"); Serial.print(apdubuffer[i], HEX);
+    }
+    Serial.println("");
+  }
+  delay(1000);
+}
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/mifareclassic_formatndef/mifareclassic_formatndef.ino b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/mifareclassic_formatndef/mifareclassic_formatndef.ino
new file mode 100644
index 0000000..feeb083
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/mifareclassic_formatndef/mifareclassic_formatndef.ino
@@ -0,0 +1,201 @@
+/**************************************************************************/
+/*!
+    @file     mifareclassic_formatndef.pde
+    @author   Adafruit Industries
+    @license  BSD (see license.txt)
+
+    This example attempts to format a clean Mifare Classic 1K card as
+    an NFC Forum tag (to store NDEF messages that can be read by any
+    NFC enabled Android phone, etc.)
+
+    Note that you need the baud rate to be 115200 because we need to print
+    out the data and read from the card at the same time!
+
+    This is an example sketch for the Adafruit PN532 NFC/RFID breakout boards
+    This library works with the Adafruit NFC Shield
+      ----> https://www.adafruit.com/products/789
+
+    Check out the links above for our tutorials and wiring diagrams
+    These chips use SPI or I2C to communicate
+
+    Adafruit invests time and resources providing this open source code,
+    please support Adafruit and open-source hardware by purchasing
+    products from Adafruit!
+
+*/
+/**************************************************************************/
+
+#include <Wire.h>
+#include <SPI.h>
+#include <Adafruit_PN532.h>
+
+// If using the breakout with SPI, define the pins for SPI communication.
+#define PN532_SCK  (2)
+#define PN532_MOSI (3)
+#define PN532_SS   (4)
+#define PN532_MISO (5)
+
+// If using the breakout or shield with I2C, define just the pins connected
+// to the IRQ and reset lines.  Use the values below (2, 3) for the shield!
+#define PN532_IRQ   (2)
+#define PN532_RESET (3)  // Not connected by default on the NFC Shield
+
+// Uncomment just _one_ line below depending on how your breakout or shield
+// is connected to the Arduino:
+
+// Use this line for a breakout with a SPI connection:
+Adafruit_PN532 nfc(PN532_SCK, PN532_MISO, PN532_MOSI, PN532_SS);
+
+// Use this line for a breakout with a hardware SPI connection.  Note that
+// the PN532 SCK, MOSI, and MISO pins need to be connected to the Arduino's
+// hardware SPI SCK, MOSI, and MISO pins.  On an Arduino Uno these are
+// SCK = 13, MOSI = 11, MISO = 12.  The SS line can be any digital IO pin.
+//Adafruit_PN532 nfc(PN532_SS);
+
+// Or use this line for a breakout or shield with an I2C connection:
+//Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
+
+/*
+    We can encode many different kinds of pointers to the card,
+    from a URL, to an Email address, to a phone number, and many more
+    check the library header .h file to see the large # of supported
+    prefixes!
+*/
+// For a http://www. url:
+const char * url = "adafruit.com";
+uint8_t ndefprefix = NDEF_URIPREFIX_HTTP_WWWDOT;
+
+// for an email address
+//const char * url = "mail@example.com";
+//uint8_t ndefprefix = NDEF_URIPREFIX_MAILTO;
+
+// for a phone number
+//const char * url = "+1 212 555 1212";
+//uint8_t ndefprefix = NDEF_URIPREFIX_TEL;
+
+
+void setup(void) {
+  Serial.begin(115200);
+  while (!Serial) delay(10); // for Leonardo/Micro/Zero
+
+  Serial.println("Looking for PN532...");
+
+  nfc.begin();
+
+  uint32_t versiondata = nfc.getFirmwareVersion();
+  if (! versiondata) {
+    Serial.print("Didn't find PN53x board");
+    while (1); // halt
+  }
+
+  // Got ok data, print it out!
+  Serial.print("Found chip PN5"); Serial.println((versiondata>>24) & 0xFF, HEX);
+  Serial.print("Firmware ver. "); Serial.print((versiondata>>16) & 0xFF, DEC);
+  Serial.print('.'); Serial.println((versiondata>>8) & 0xFF, DEC);
+}
+
+void loop(void) {
+  uint8_t success;                          // Flag to check if there was an error with the PN532
+  uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 };  // Buffer to store the returned UID
+  uint8_t uidLength;                        // Length of the UID (4 or 7 bytes depending on ISO14443A card type)
+
+  // Use the default key
+  uint8_t keya[6] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF };
+
+  Serial.println("");
+  Serial.println("PLEASE NOTE: Formatting your card for NDEF records will change the");
+  Serial.println("authentication keys.  To reformat your NDEF tag as a clean Mifare");
+  Serial.println("Classic tag, use the mifareclassic_ndeftoclassic example!");
+  Serial.println("");
+  Serial.println("Place your Mifare Classic card on the reader to format with NDEF");
+  Serial.println("and press any key to continue ...");
+  // Wait for user input before proceeding
+  while (!Serial.available());
+  // a key was pressed1
+  while (Serial.available()) Serial.read();
+
+  // Wait for an ISO14443A type card (Mifare, etc.).  When one is found
+  // 'uid' will be populated with the UID, and uidLength will indicate
+  // if the uid is 4 bytes (Mifare Classic) or 7 bytes (Mifare Ultralight)
+  success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength);
+
+  if (success)
+  {
+    // Display some basic information about the card
+    Serial.println("Found an ISO14443A card");
+    Serial.print("  UID Length: ");Serial.print(uidLength, DEC);Serial.println(" bytes");
+    Serial.print("  UID Value: ");
+    nfc.PrintHex(uid, uidLength);
+    Serial.println("");
+
+    // Make sure this is a Mifare Classic card
+    if (uidLength != 4)
+    {
+      Serial.println("Ooops ... this doesn't seem to be a Mifare Classic card!");
+      return;
+    }
+
+    // We probably have a Mifare Classic card ...
+    Serial.println("Seems to be a Mifare Classic card (4 byte UID)");
+
+    // Try to format the card for NDEF data
+    success = nfc.mifareclassic_AuthenticateBlock (uid, uidLength, 0, 0, keya);
+    if (!success)
+    {
+      Serial.println("Unable to authenticate block 0 to enable card formatting!");
+      return;
+    }
+    success = nfc.mifareclassic_FormatNDEF();
+    if (!success)
+    {
+      Serial.println("Unable to format the card for NDEF");
+      return;
+    }
+
+    Serial.println("Card has been formatted for NDEF data using MAD1");
+
+    // Try to authenticate block 4 (first block of sector 1) using our key
+    success = nfc.mifareclassic_AuthenticateBlock (uid, uidLength, 4, 0, keya);
+
+    // Make sure the authentification process didn't fail
+    if (!success)
+    {
+      Serial.println("Authentication failed.");
+      return;
+    }
+
+    // Try to write a URL
+    Serial.println("Writing URI to sector 1 as an NDEF Message");
+
+    // Authenticated seems to have worked
+    // Try to write an NDEF record to sector 1
+    // Use 0x01 for the URI Identifier Code to prepend "http://www."
+    // to the url (and save some space).  For information on URI ID Codes
+    // see http://www.ladyada.net/wiki/private/articlestaging/nfc/ndef
+    if (strlen(url) > 38)
+    {
+      // The length is also checked in the WriteNDEFURI function, but lets
+      // warn users here just in case they change the value and it's bigger
+      // than it should be
+      Serial.println("URI is too long ... must be less than 38 characters long");
+      return;
+    }
+
+    // URI is within size limits ... write it to the card and report success/failure
+    success = nfc.mifareclassic_WriteNDEFURI(1, ndefprefix, url);
+    if (success)
+    {
+      Serial.println("NDEF URI Record written to sector 1");
+    }
+    else
+    {
+      Serial.println("NDEF Record creation failed! :(");
+    }
+  }
+
+  // Wait a bit before trying again
+  Serial.println("\n\nDone!");
+  delay(1000);
+  Serial.flush();
+  while(Serial.available()) Serial.read();
+}
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/mifareclassic_memdump/mifareclassic_memdump.ino b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/mifareclassic_memdump/mifareclassic_memdump.ino
new file mode 100644
index 0000000..5a50222
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/mifareclassic_memdump/mifareclassic_memdump.ino
@@ -0,0 +1,190 @@
+/**************************************************************************/
+/*!
+    @file     mifareclassic_memdump.pde
+    @author   Adafruit Industries
+  @license  BSD (see license.txt)
+
+    This example attempts to dump the contents of a Mifare Classic 1K card
+
+    Note that you need the baud rate to be 115200 because we need to print
+  out the data and read from the card at the same time!
+
+    This is an example sketch for the Adafruit PN532 NFC/RFID breakout boards
+    This library works with the Adafruit NFC breakout
+      ----> https://www.adafruit.com/products/364
+
+    Check out the links above for our tutorials and wiring diagrams
+    These chips use SPI or I2C to communicate
+
+    Adafruit invests time and resources providing this open source code,
+    please support Adafruit and open-source hardware by purchasing
+    products from Adafruit!
+
+*/
+/**************************************************************************/
+
+#include <Wire.h>
+#include <SPI.h>
+#include <Adafruit_PN532.h>
+
+// If using the breakout with SPI, define the pins for SPI communication.
+#define PN532_SCK  (2)
+#define PN532_MOSI (3)
+#define PN532_SS   (4)
+#define PN532_MISO (5)
+
+// If using the breakout or shield with I2C, define just the pins connected
+// to the IRQ and reset lines.  Use the values below (2, 3) for the shield!
+#define PN532_IRQ   (2)
+#define PN532_RESET (3)  // Not connected by default on the NFC Shield
+
+// Uncomment just _one_ line below depending on how your breakout or shield
+// is connected to the Arduino:
+
+// Use this line for a breakout with a SPI connection:
+Adafruit_PN532 nfc(PN532_SCK, PN532_MISO, PN532_MOSI, PN532_SS);
+
+// Use this line for a breakout with a hardware SPI connection.  Note that
+// the PN532 SCK, MOSI, and MISO pins need to be connected to the Arduino's
+// hardware SPI SCK, MOSI, and MISO pins.  On an Arduino Uno these are
+// SCK = 13, MOSI = 11, MISO = 12.  The SS line can be any digital IO pin.
+//Adafruit_PN532 nfc(PN532_SS);
+
+// Or use this line for a breakout or shield with an I2C connection:
+//Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
+
+void setup(void) {
+  // has to be fast to dump the entire memory contents!
+  Serial.begin(115200);
+  while (!Serial) delay(10); // for Leonardo/Micro/Zero
+
+  Serial.println("Looking for PN532...");
+
+  nfc.begin();
+
+  uint32_t versiondata = nfc.getFirmwareVersion();
+  if (! versiondata) {
+    Serial.print("Didn't find PN53x board");
+    while (1); // halt
+  }
+  // Got ok data, print it out!
+  Serial.print("Found chip PN5"); Serial.println((versiondata>>24) & 0xFF, HEX);
+  Serial.print("Firmware ver. "); Serial.print((versiondata>>16) & 0xFF, DEC);
+  Serial.print('.'); Serial.println((versiondata>>8) & 0xFF, DEC);
+
+  Serial.println("Waiting for an ISO14443A Card ...");
+}
+
+
+void loop(void) {
+  uint8_t success;                          // Flag to check if there was an error with the PN532
+  uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 };  // Buffer to store the returned UID
+  uint8_t uidLength;                        // Length of the UID (4 or 7 bytes depending on ISO14443A card type)
+  uint8_t currentblock;                     // Counter to keep track of which block we're on
+  bool authenticated = false;               // Flag to indicate if the sector is authenticated
+  uint8_t data[16];                         // Array to store block data during reads
+
+  // Keyb on NDEF and Mifare Classic should be the same
+  uint8_t keyuniversal[6] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF };
+
+  // Wait for an ISO14443A type cards (Mifare, etc.).  When one is found
+  // 'uid' will be populated with the UID, and uidLength will indicate
+  // if the uid is 4 bytes (Mifare Classic) or 7 bytes (Mifare Ultralight)
+  success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength);
+
+  if (success) {
+    // Display some basic information about the card
+    Serial.println("Found an ISO14443A card");
+    Serial.print("  UID Length: ");Serial.print(uidLength, DEC);Serial.println(" bytes");
+    Serial.print("  UID Value: ");
+    nfc.PrintHex(uid, uidLength);
+    Serial.println("");
+
+    if (uidLength == 4)
+    {
+      // We probably have a Mifare Classic card ...
+      Serial.println("Seems to be a Mifare Classic card (4 byte UID)");
+
+      // Now we try to go through all 16 sectors (each having 4 blocks)
+      // authenticating each sector, and then dumping the blocks
+      for (currentblock = 0; currentblock < 64; currentblock++)
+      {
+        // Check if this is a new block so that we can reauthenticate
+        if (nfc.mifareclassic_IsFirstBlock(currentblock)) authenticated = false;
+
+        // If the sector hasn't been authenticated, do so first
+        if (!authenticated)
+        {
+          // Starting of a new sector ... try to to authenticate
+          Serial.print("------------------------Sector ");Serial.print(currentblock/4, DEC);Serial.println("-------------------------");
+          if (currentblock == 0)
+          {
+              // This will be 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF for Mifare Classic (non-NDEF!)
+              // or 0xA0 0xA1 0xA2 0xA3 0xA4 0xA5 for NDEF formatted cards using key a,
+              // but keyb should be the same for both (0xFF 0xFF 0xFF 0xFF 0xFF 0xFF)
+              success = nfc.mifareclassic_AuthenticateBlock (uid, uidLength, currentblock, 1, keyuniversal);
+          }
+          else
+          {
+              // This will be 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF for Mifare Classic (non-NDEF!)
+              // or 0xD3 0xF7 0xD3 0xF7 0xD3 0xF7 for NDEF formatted cards using key a,
+              // but keyb should be the same for both (0xFF 0xFF 0xFF 0xFF 0xFF 0xFF)
+              success = nfc.mifareclassic_AuthenticateBlock (uid, uidLength, currentblock, 1, keyuniversal);
+          }
+          if (success)
+          {
+            authenticated = true;
+          }
+          else
+          {
+            Serial.println("Authentication error");
+          }
+        }
+        // If we're still not authenticated just skip the block
+        if (!authenticated)
+        {
+          Serial.print("Block ");Serial.print(currentblock, DEC);Serial.println(" unable to authenticate");
+        }
+        else
+        {
+          // Authenticated ... we should be able to read the block now
+          // Dump the data into the 'data' array
+          success = nfc.mifareclassic_ReadDataBlock(currentblock, data);
+          if (success)
+          {
+            // Read successful
+            Serial.print("Block ");Serial.print(currentblock, DEC);
+            if (currentblock < 10)
+            {
+              Serial.print("  ");
+            }
+            else
+            {
+              Serial.print(" ");
+            }
+            // Dump the raw data
+            nfc.PrintHexChar(data, 16);
+          }
+          else
+          {
+            // Oops ... something happened
+            Serial.print("Block ");Serial.print(currentblock, DEC);
+            Serial.println(" unable to read this block");
+          }
+        }
+      }
+    }
+    else
+    {
+      Serial.println("Ooops ... this doesn't seem to be a Mifare Classic card!");
+    }
+  }
+  // Wait a bit before trying again
+  Serial.println("\n\nSend a character to run the mem dumper again!");
+  Serial.flush();
+  while (!Serial.available());
+  while (Serial.available()) {
+  Serial.read();
+  }
+  Serial.flush();
+}
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/mifareclassic_ndeftoclassic/mifareclassic_ndeftoclassic.ino b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/mifareclassic_ndeftoclassic/mifareclassic_ndeftoclassic.ino
new file mode 100644
index 0000000..1c9a06a
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/mifareclassic_ndeftoclassic/mifareclassic_ndeftoclassic.ino
@@ -0,0 +1,207 @@
+/**************************************************************************/
+/*!
+    @file     mifareclassic_ndeftoclassic.pde
+    @author   KTOWN (Adafruit Industries)
+  	@license  BSD (see license.txt)
+
+    This examples attempts to take a Mifare Classic 1K card that has been
+    formatted for NDEF messages using mifareclassic_formatndef, and resets
+    the authentication keys back to the Mifare Classic defaults
+
+    This is an example sketch for the Adafruit PN532 NFC/RFID breakout boards
+    This library works with the Adafruit NFC Shield
+      ----> https://www.adafruit.com/products/789
+
+    Check out the links above for our tutorials and wiring diagrams
+    These chips use SPI or I2C to communicate
+
+    Adafruit invests time and resources providing this open source code,
+    please support Adafruit and open-source hardware by purchasing
+    products from Adafruit!
+
+*/
+/**************************************************************************/
+
+#include <Wire.h>
+#include <SPI.h>
+#include <Adafruit_PN532.h>
+
+// If using the breakout with SPI, define the pins for SPI communication.
+#define PN532_SCK  (2)
+#define PN532_MOSI (3)
+#define PN532_SS   (4)
+#define PN532_MISO (5)
+
+// If using the breakout or shield with I2C, define just the pins connected
+// to the IRQ and reset lines.  Use the values below (2, 3) for the shield!
+#define PN532_IRQ   (2)
+#define PN532_RESET (3)  // Not connected by default on the NFC Shield
+
+// Uncomment just _one_ line below depending on how your breakout or shield
+// is connected to the Arduino:
+
+// Use this line for a breakout with a SPI connection:
+Adafruit_PN532 nfc(PN532_SCK, PN532_MISO, PN532_MOSI, PN532_SS);
+
+// Use this line for a breakout with a hardware SPI connection.  Note that
+// the PN532 SCK, MOSI, and MISO pins need to be connected to the Arduino's
+// hardware SPI SCK, MOSI, and MISO pins.  On an Arduino Uno these are
+// SCK = 13, MOSI = 11, MISO = 12.  The SS line can be any digital IO pin.
+//Adafruit_PN532 nfc(PN532_SS);
+
+// Or use this line for a breakout or shield with an I2C connection:
+//Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
+
+#define NR_SHORTSECTOR          (32)    // Number of short sectors on Mifare 1K/4K
+#define NR_LONGSECTOR           (8)     // Number of long sectors on Mifare 4K
+#define NR_BLOCK_OF_SHORTSECTOR (4)     // Number of blocks in a short sector
+#define NR_BLOCK_OF_LONGSECTOR  (16)    // Number of blocks in a long sector
+
+// Determine the sector trailer block based on sector number
+#define BLOCK_NUMBER_OF_SECTOR_TRAILER(sector) (((sector)<NR_SHORTSECTOR)? \
+  ((sector)*NR_BLOCK_OF_SHORTSECTOR + NR_BLOCK_OF_SHORTSECTOR-1):\
+  (NR_SHORTSECTOR*NR_BLOCK_OF_SHORTSECTOR + (sector-NR_SHORTSECTOR)*NR_BLOCK_OF_LONGSECTOR + NR_BLOCK_OF_LONGSECTOR-1))
+
+// Determine the sector's first block based on the sector number
+#define BLOCK_NUMBER_OF_SECTOR_1ST_BLOCK(sector) (((sector)<NR_SHORTSECTOR)? \
+  ((sector)*NR_BLOCK_OF_SHORTSECTOR):\
+  (NR_SHORTSECTOR*NR_BLOCK_OF_SHORTSECTOR + (sector-NR_SHORTSECTOR)*NR_BLOCK_OF_LONGSECTOR))
+
+// The default Mifare Classic key
+static const uint8_t KEY_DEFAULT_KEYAB[6] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
+
+
+void setup(void) {
+  Serial.begin(115200);
+  while (!Serial) delay(10); // for Leonardo/Micro/Zero
+
+  Serial.println("Looking for PN532...");
+
+  nfc.begin();
+
+  uint32_t versiondata = nfc.getFirmwareVersion();
+  if (! versiondata) {
+    Serial.print("Didn't find PN53x board");
+    while (1); // halt
+  }
+
+  // Got ok data, print it out!
+  Serial.print("Found chip PN5"); Serial.println((versiondata>>24) & 0xFF, HEX);
+  Serial.print("Firmware ver. "); Serial.print((versiondata>>16) & 0xFF, DEC);
+  Serial.print('.'); Serial.println((versiondata>>8) & 0xFF, DEC);
+}
+
+void loop(void) {
+  uint8_t success;                          // Flag to check if there was an error with the PN532
+  uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 };  // Buffer to store the returned UID
+  uint8_t uidLength;                        // Length of the UID (4 or 7 bytes depending on ISO14443A card type)
+  uint8_t blockBuffer[16];                  // Buffer to store block contents
+  uint8_t blankAccessBits[3] = { 0xff, 0x07, 0x80 };
+  uint8_t idx = 0;
+  uint8_t numOfSector = 16;                 // Assume Mifare Classic 1K for now (16 4-block sectors)
+
+  Serial.println("Place your NDEF formatted Mifare Classic 1K card on the reader");
+  Serial.println("and press any key to continue ...");
+
+  // Wait for user input before proceeding
+  while (!Serial.available());
+  while (Serial.available()) Serial.read();
+
+  // Wait for an ISO14443A type card (Mifare, etc.).  When one is found
+  // 'uid' will be populated with the UID, and uidLength will indicate
+  // if the uid is 4 bytes (Mifare Classic) or 7 bytes (Mifare Ultralight)
+  success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength);
+
+  if (success)
+  {
+    // We seem to have a tag ...
+    // Display some basic information about it
+    Serial.println("Found an ISO14443A card/tag");
+    Serial.print("  UID Length: ");Serial.print(uidLength, DEC);Serial.println(" bytes");
+    Serial.print("  UID Value: ");
+    nfc.PrintHex(uid, uidLength);
+    Serial.println("");
+
+    // Make sure this is a Mifare Classic card
+    if (uidLength != 4)
+    {
+      Serial.println("Ooops ... this doesn't seem to be a Mifare Classic card!");
+      return;
+    }
+
+    Serial.println("Seems to be a Mifare Classic card (4 byte UID)");
+    Serial.println("");
+    Serial.println("Reformatting card for Mifare Classic (please don't touch it!) ... ");
+
+    // Now run through the card sector by sector
+    for (idx = 0; idx < numOfSector; idx++)
+    {
+      // Step 1: Authenticate the current sector using key B 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF
+      success = nfc.mifareclassic_AuthenticateBlock (uid, uidLength, BLOCK_NUMBER_OF_SECTOR_TRAILER(idx), 1, (uint8_t *)KEY_DEFAULT_KEYAB);
+      if (!success)
+      {
+        Serial.print("Authentication failed for sector "); Serial.println(numOfSector);
+        return;
+      }
+
+      // Step 2: Write to the other blocks
+      if (idx == 16)
+      {
+        memset(blockBuffer, 0, sizeof(blockBuffer));
+        if (!(nfc.mifareclassic_WriteDataBlock((BLOCK_NUMBER_OF_SECTOR_TRAILER(idx)) - 3, blockBuffer)))
+        {
+          Serial.print("Unable to write to sector "); Serial.println(numOfSector);
+          return;
+        }
+      }
+      if ((idx == 0) || (idx == 16))
+      {
+        memset(blockBuffer, 0, sizeof(blockBuffer));
+        if (!(nfc.mifareclassic_WriteDataBlock((BLOCK_NUMBER_OF_SECTOR_TRAILER(idx)) - 2, blockBuffer)))
+        {
+          Serial.print("Unable to write to sector "); Serial.println(numOfSector);
+          return;
+        }
+      }
+      else
+      {
+        memset(blockBuffer, 0, sizeof(blockBuffer));
+        if (!(nfc.mifareclassic_WriteDataBlock((BLOCK_NUMBER_OF_SECTOR_TRAILER(idx)) - 3, blockBuffer)))
+        {
+          Serial.print("Unable to write to sector "); Serial.println(numOfSector);
+          return;
+        }
+        if (!(nfc.mifareclassic_WriteDataBlock((BLOCK_NUMBER_OF_SECTOR_TRAILER(idx)) - 2, blockBuffer)))
+        {
+          Serial.print("Unable to write to sector "); Serial.println(numOfSector);
+          return;
+        }
+      }
+      memset(blockBuffer, 0, sizeof(blockBuffer));
+      if (!(nfc.mifareclassic_WriteDataBlock((BLOCK_NUMBER_OF_SECTOR_TRAILER(idx)) - 1, blockBuffer)))
+      {
+        Serial.print("Unable to write to sector "); Serial.println(numOfSector);
+        return;
+      }
+
+      // Step 3: Reset both keys to 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF
+      memcpy(blockBuffer, KEY_DEFAULT_KEYAB, sizeof(KEY_DEFAULT_KEYAB));
+      memcpy(blockBuffer + 6, blankAccessBits, sizeof(blankAccessBits));
+      blockBuffer[9] = 0x69;
+      memcpy(blockBuffer + 10, KEY_DEFAULT_KEYAB, sizeof(KEY_DEFAULT_KEYAB));
+
+      // Step 4: Write the trailer block
+      if (!(nfc.mifareclassic_WriteDataBlock((BLOCK_NUMBER_OF_SECTOR_TRAILER(idx)), blockBuffer)))
+      {
+        Serial.print("Unable to write trailer block of sector "); Serial.println(numOfSector);
+        return;
+      }
+    }
+  }
+
+  // Wait a bit before trying again
+  Serial.println("\n\nDone!");
+  delay(1000);
+  Serial.flush();
+  while(Serial.available()) Serial.read();
+}
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/mifareclassic_updatendef/mifareclassic_updatendef.ino b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/mifareclassic_updatendef/mifareclassic_updatendef.ino
new file mode 100644
index 0000000..0bdf126
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/mifareclassic_updatendef/mifareclassic_updatendef.ino
@@ -0,0 +1,177 @@
+/**************************************************************************/
+/*!
+    @file     mifareclassic_updatendef.pde
+    @author   Adafruit Industries
+  	@license  BSD (see license.txt)
+
+    Updates a sector that is already formatted for NDEF (using
+    mifareclassic_formatndef.pde for example), inserting a new url
+
+    This is an example sketch for the Adafruit PN532 NFC/RFID breakout boards
+    This library works with the Adafruit NFC Shield
+      ----> https://www.adafruit.com/products/789
+
+    Check out the links above for our tutorials and wiring diagrams
+    These chips use SPI or I2C to communicate
+
+    Adafruit invests time and resources providing this open source code,
+    please support Adafruit and open-source hardware by purchasing
+    products from Adafruit!
+
+*/
+/**************************************************************************/
+
+#include <Wire.h>
+#include <SPI.h>
+#include <Adafruit_PN532.h>
+
+// If using the breakout with SPI, define the pins for SPI communication.
+#define PN532_SCK  (2)
+#define PN532_MOSI (3)
+#define PN532_SS   (4)
+#define PN532_MISO (5)
+
+// If using the breakout or shield with I2C, define just the pins connected
+// to the IRQ and reset lines.  Use the values below (2, 3) for the shield!
+#define PN532_IRQ   (2)
+#define PN532_RESET (3)  // Not connected by default on the NFC Shield
+
+// Uncomment just _one_ line below depending on how your breakout or shield
+// is connected to the Arduino:
+
+// Use this line for a breakout with a SPI connection:
+Adafruit_PN532 nfc(PN532_SCK, PN532_MISO, PN532_MOSI, PN532_SS);
+
+// Use this line for a breakout with a hardware SPI connection.  Note that
+// the PN532 SCK, MOSI, and MISO pins need to be connected to the Arduino's
+// hardware SPI SCK, MOSI, and MISO pins.  On an Arduino Uno these are
+// SCK = 13, MOSI = 11, MISO = 12.  The SS line can be any digital IO pin.
+//Adafruit_PN532 nfc(PN532_SS);
+
+// Or use this line for a breakout or shield with an I2C connection:
+//Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
+
+/*
+    We can encode many different kinds of pointers to the card,
+    from a URL, to an Email address, to a phone number, and many more
+    check the library header .h file to see the large # of supported
+    prefixes!
+*/
+// For a http://www. url:
+const char * url = "adafruit.com/blog/";
+uint8_t ndefprefix = NDEF_URIPREFIX_HTTP_WWWDOT;
+
+// for an email address
+//const char * url = "mail@example.com";
+//uint8_t ndefprefix = NDEF_URIPREFIX_MAILTO;
+
+// for a phone number
+//const char * url = "+1 212 555 1212";
+//uint8_t ndefprefix = NDEF_URIPREFIX_TEL;
+
+
+void setup(void) {
+  Serial.begin(115200);
+  while (!Serial) delay(10); // for Leonardo/Micro/Zero
+
+  Serial.println("Looking for PN532...");
+
+  nfc.begin();
+
+  uint32_t versiondata = nfc.getFirmwareVersion();
+  if (! versiondata) {
+    Serial.print("Didn't find PN53x board");
+    while (1); // halt
+  }
+
+  // Got ok data, print it out!
+  Serial.print("Found chip PN5"); Serial.println((versiondata>>24) & 0xFF, HEX);
+  Serial.print("Firmware ver. "); Serial.print((versiondata>>16) & 0xFF, DEC);
+  Serial.print('.'); Serial.println((versiondata>>8) & 0xFF, DEC);
+}
+
+void loop(void) {
+  uint8_t success;                          // Flag to check if there was an error with the PN532
+  uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 };  // Buffer to store the returned UID
+  uint8_t uidLength;                        // Length of the UID (4 or 7 bytes depending on ISO14443A card type)
+
+  // Use the default NDEF keys (these would have have set by mifareclassic_formatndef.pde!)
+  uint8_t keyb[6] = { 0xD3, 0xF7, 0xD3, 0xF7, 0xD3, 0xF7 };
+
+  Serial.println("Place your NDEF formatted Mifare Classic card on the reader to update the");
+  Serial.println("NDEF record and press any key to continue ...");
+  // Wait for user input before proceeding
+  while (!Serial.available());
+  // a key was pressed1
+  while (Serial.available()) Serial.read();
+
+  // Wait for an ISO14443A type card (Mifare, etc.).  When one is found
+  // 'uid' will be populated with the UID, and uidLength will indicate
+  // if the uid is 4 bytes (Mifare Classic) or 7 bytes (Mifare Ultralight)
+  success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength);
+
+  if (success)
+  {
+    // Display some basic information about the card
+    Serial.println("Found an ISO14443A card");
+    Serial.print("  UID Length: ");Serial.print(uidLength, DEC);Serial.println(" bytes");
+    Serial.print("  UID Value: ");
+    nfc.PrintHex(uid, uidLength);
+    Serial.println("");
+
+    // Make sure this is a Mifare Classic card
+    if (uidLength != 4)
+    {
+      Serial.println("Ooops ... this doesn't seem to be a Mifare Classic card!");
+      return;
+    }
+
+    // We probably have a Mifare Classic card ...
+    Serial.println("Seems to be a Mifare Classic card (4 byte UID)");
+
+    // Check if this is an NDEF card (using first block of sector 1 from mifareclassic_formatndef.pde)
+    // Must authenticate on the first key using 0xD3 0xF7 0xD3 0xF7 0xD3 0xF7
+    success = nfc.mifareclassic_AuthenticateBlock (uid, uidLength, 4, 0, keyb);
+    if (!success)
+    {
+      Serial.println("Unable to authenticate block 4 ... is this card NDEF formatted?");
+      return;
+    }
+
+    Serial.println("Authentication succeeded (seems to be an NDEF/NFC Forum tag) ...");
+
+    // Authenticated seems to have worked
+    // Try to write an NDEF record to sector 1
+    // Use 0x01 for the URI Identifier Code to prepend "http://www."
+    // to the url (and save some space).  For information on URI ID Codes
+    // see http://www.ladyada.net/wiki/private/articlestaging/nfc/ndef
+    if (strlen(url) > 38)
+    {
+      // The length is also checked in the WriteNDEFURI function, but lets
+      // warn users here just in case they change the value and it's bigger
+      // than it should be
+      Serial.println("URI is too long ... must be less than 38 characters!");
+      return;
+    }
+
+    Serial.println("Updating sector 1 with URI as NDEF Message");
+
+    // URI is within size limits ... write it to the card and report success/failure
+    success = nfc.mifareclassic_WriteNDEFURI(1, ndefprefix, url);
+    if (success)
+    {
+      Serial.println("NDEF URI Record written to sector 1");
+      Serial.println("");
+    }
+    else
+    {
+      Serial.println("NDEF Record creation failed! :(");
+    }
+  }
+
+  // Wait a bit before trying again
+  Serial.println("\n\nDone!");
+  delay(1000);
+  Serial.flush();
+  while(Serial.available()) Serial.read();
+}
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/ntag2xx_erase/ntag2xx_erase.ino b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/ntag2xx_erase/ntag2xx_erase.ino
new file mode 100644
index 0000000..4bc5d42
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/ntag2xx_erase/ntag2xx_erase.ino
@@ -0,0 +1,158 @@
+/**************************************************************************/
+/*!
+    @file     ntag2xx_erase.pde
+    @author   KTOWN (Adafruit Industries)
+    @license  BSD (see license.txt)
+
+    This example will wait for any NTAG203 or NTAG213 card or tag,
+    and will attempt to erase the user data section of the card (setting
+    all user bytes to 0x00)
+
+    This is an example sketch for the Adafruit PN532 NFC/RFID breakout boards
+    This library works with the Adafruit NFC breakout
+      ----> https://www.adafruit.com/products/364
+
+    Check out the links above for our tutorials and wiring diagrams
+    These chips use SPI or I2C to communicate.
+
+    Adafruit invests time and resources providing this open source code,
+    please support Adafruit and open-source hardware by purchasing
+    products from Adafruit!
+*/
+/**************************************************************************/
+#include <Wire.h>
+#include <SPI.h>
+#include <Adafruit_PN532.h>
+
+// If using the breakout with SPI, define the pins for SPI communication.
+#define PN532_SCK  (2)
+#define PN532_MOSI (3)
+#define PN532_SS   (4)
+#define PN532_MISO (5)
+
+// If using the breakout or shield with I2C, define just the pins connected
+// to the IRQ and reset lines.  Use the values below (2, 3) for the shield!
+#define PN532_IRQ   (2)
+#define PN532_RESET (3)  // Not connected by default on the NFC Shield
+
+// Uncomment just _one_ line below depending on how your breakout or shield
+// is connected to the Arduino:
+
+// Use this line for a breakout with a software SPI connection (recommended):
+Adafruit_PN532 nfc(PN532_SCK, PN532_MISO, PN532_MOSI, PN532_SS);
+
+// Use this line for a breakout with a hardware SPI connection.  Note that
+// the PN532 SCK, MOSI, and MISO pins need to be connected to the Arduino's
+// hardware SPI SCK, MOSI, and MISO pins.  On an Arduino Uno these are
+// SCK = 13, MOSI = 11, MISO = 12.  The SS line can be any digital IO pin.
+//Adafruit_PN532 nfc(PN532_SS);
+
+// Or use this line for a breakout or shield with an I2C connection:
+//Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
+
+void setup(void) {
+  Serial.begin(115200);
+  while (!Serial) delay(10); // for Leonardo/Micro/Zero
+
+  Serial.println("Hello!");
+
+  nfc.begin();
+
+  uint32_t versiondata = nfc.getFirmwareVersion();
+  if (! versiondata) {
+    Serial.print("Didn't find PN53x board");
+    while (1); // halt
+  }
+  // Got ok data, print it out!
+  Serial.print("Found chip PN5"); Serial.println((versiondata>>24) & 0xFF, HEX);
+  Serial.print("Firmware ver. "); Serial.print((versiondata>>16) & 0xFF, DEC);
+  Serial.print('.'); Serial.println((versiondata>>8) & 0xFF, DEC);
+
+  Serial.println("Waiting for an ISO14443A Card ...");
+}
+
+void loop(void) {
+  uint8_t success;
+  uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 };  // Buffer to store the returned UID
+  uint8_t uidLength;                        // Length of the UID (4 or 7 bytes depending on ISO14443A card type)
+
+  // Wait for an NTAG203 card.  When one is found 'uid' will be populated with
+  // the UID, and uidLength will indicate the size of the UUID (normally 7)
+  success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength);
+
+  if (success) {
+    // Display some basic information about the card
+    Serial.println("Found an ISO14443A card");
+    Serial.print("  UID Length: ");Serial.print(uidLength, DEC);Serial.println(" bytes");
+    Serial.print("  UID Value: ");
+    nfc.PrintHex(uid, uidLength);
+    Serial.println("");
+
+    if (uidLength == 7)
+    {
+      uint8_t data[32];
+
+      // We probably have an NTAG2xx card (though it could be Ultralight as well)
+      Serial.println("Seems to be an NTAG2xx tag (7 byte UID)");
+
+      // NTAG2x3 cards have 39*4 bytes of user pages (156 user bytes),
+      // starting at page 4 ... larger cards just add pages to the end of
+      // this range:
+
+      // See: http://www.nxp.com/documents/short_data_sheet/NTAG203_SDS.pdf
+
+      // TAG Type       PAGES   USER START    USER STOP
+      // --------       -----   ----------    ---------
+      // NTAG 203       42      4             39
+      // NTAG 213       45      4             39
+      // NTAG 215       135     4             129
+      // NTAG 216       231     4             225
+
+      Serial.println("");
+      Serial.println("Writing 0x00 0x00 0x00 0x00 to pages 4..39");
+      Serial.println("");
+      for (uint8_t i = 4; i < 39; i++)
+      {
+        memset(data, 0, 4);
+        success = nfc.ntag2xx_WritePage(i, data);
+
+        // Display the current page number
+        Serial.print("Page ");
+        if (i < 10)
+        {
+          Serial.print("0");
+          Serial.print(i);
+        }
+        else
+        {
+          Serial.print(i);
+        }
+        Serial.print(": ");
+
+        // Display the results, depending on 'success'
+        if (success)
+        {
+          Serial.println("Erased");
+        }
+        else
+        {
+          Serial.println("Unable to write to the requested page!");
+        }
+      }
+    }
+    else
+    {
+      Serial.println("This doesn't seem to be an NTAG203 tag (UUID length != 7 bytes)!");
+    }
+
+    // Wait a bit before trying again
+    Serial.println("\n\nSend a character to scan another tag!");
+    Serial.flush();
+    while (!Serial.available());
+    while (Serial.available()) {
+    Serial.read();
+    }
+    Serial.flush();
+  }
+}
+
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/ntag2xx_read/ntag2xx_read.ino b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/ntag2xx_read/ntag2xx_read.ino
new file mode 100644
index 0000000..b0bd365
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/ntag2xx_read/ntag2xx_read.ino
@@ -0,0 +1,155 @@
+/**************************************************************************/
+/*!
+    @file     readntag203.pde
+    @author   KTOWN (Adafruit Industries)
+    @license  BSD (see license.txt)
+
+    This example will wait for any NTAG203 or NTAG213 card or tag,
+    and will attempt to read from it.
+
+    This is an example sketch for the Adafruit PN532 NFC/RFID breakout boards
+    This library works with the Adafruit NFC breakout
+      ----> https://www.adafruit.com/products/364
+
+    Check out the links above for our tutorials and wiring diagrams
+    These chips use SPI or I2C to communicate.
+
+    Adafruit invests time and resources providing this open source code,
+    please support Adafruit and open-source hardware by purchasing
+    products from Adafruit!
+*/
+/**************************************************************************/
+#include <Wire.h>
+#include <SPI.h>
+#include <Adafruit_PN532.h>
+
+// If using the breakout with SPI, define the pins for SPI communication.
+#define PN532_SCK  (2)
+#define PN532_MOSI (3)
+#define PN532_SS   (4)
+#define PN532_MISO (5)
+
+// If using the breakout or shield with I2C, define just the pins connected
+// to the IRQ and reset lines.  Use the values below (2, 3) for the shield!
+#define PN532_IRQ   (2)
+#define PN532_RESET (3)  // Not connected by default on the NFC Shield
+
+// Uncomment just _one_ line below depending on how your breakout or shield
+// is connected to the Arduino:
+
+// Use this line for a breakout with a software SPI connection (recommended):
+Adafruit_PN532 nfc(PN532_SCK, PN532_MISO, PN532_MOSI, PN532_SS);
+
+// Use this line for a breakout with a hardware SPI connection.  Note that
+// the PN532 SCK, MOSI, and MISO pins need to be connected to the Arduino's
+// hardware SPI SCK, MOSI, and MISO pins.  On an Arduino Uno these are
+// SCK = 13, MOSI = 11, MISO = 12.  The SS line can be any digital IO pin.
+//Adafruit_PN532 nfc(PN532_SS);
+
+// Or use this line for a breakout or shield with an I2C connection:
+//Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
+
+
+void setup(void) {
+  Serial.begin(115200);
+  while (!Serial) delay(10); // for Leonardo/Micro/Zero
+
+  Serial.println("Hello!");
+
+  nfc.begin();
+
+  uint32_t versiondata = nfc.getFirmwareVersion();
+  if (! versiondata) {
+    Serial.print("Didn't find PN53x board");
+    while (1); // halt
+  }
+  // Got ok data, print it out!
+  Serial.print("Found chip PN5"); Serial.println((versiondata>>24) & 0xFF, HEX);
+  Serial.print("Firmware ver. "); Serial.print((versiondata>>16) & 0xFF, DEC);
+  Serial.print('.'); Serial.println((versiondata>>8) & 0xFF, DEC);
+
+  Serial.println("Waiting for an ISO14443A Card ...");
+}
+
+void loop(void) {
+  uint8_t success;
+  uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 };  // Buffer to store the returned UID
+  uint8_t uidLength;                        // Length of the UID (4 or 7 bytes depending on ISO14443A card type)
+
+  // Wait for an NTAG203 card.  When one is found 'uid' will be populated with
+  // the UID, and uidLength will indicate the size of the UUID (normally 7)
+  success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength);
+
+  if (success) {
+    // Display some basic information about the card
+    Serial.println("Found an ISO14443A card");
+    Serial.print("  UID Length: ");Serial.print(uidLength, DEC);Serial.println(" bytes");
+    Serial.print("  UID Value: ");
+    nfc.PrintHex(uid, uidLength);
+    Serial.println("");
+
+    if (uidLength == 7)
+    {
+      uint8_t data[32];
+
+      // We probably have an NTAG2xx card (though it could be Ultralight as well)
+      Serial.println("Seems to be an NTAG2xx tag (7 byte UID)");
+
+      // NTAG2x3 cards have 39*4 bytes of user pages (156 user bytes),
+      // starting at page 4 ... larger cards just add pages to the end of
+      // this range:
+
+      // See: http://www.nxp.com/documents/short_data_sheet/NTAG203_SDS.pdf
+
+      // TAG Type       PAGES   USER START    USER STOP
+      // --------       -----   ----------    ---------
+      // NTAG 203       42      4             39
+      // NTAG 213       45      4             39
+      // NTAG 215       135     4             129
+      // NTAG 216       231     4             225
+
+      for (uint8_t i = 0; i < 42; i++)
+      {
+        success = nfc.ntag2xx_ReadPage(i, data);
+
+        // Display the current page number
+        Serial.print("PAGE ");
+        if (i < 10)
+        {
+          Serial.print("0");
+          Serial.print(i);
+        }
+        else
+        {
+          Serial.print(i);
+        }
+        Serial.print(": ");
+
+        // Display the results, depending on 'success'
+        if (success)
+        {
+          // Dump the page data
+          nfc.PrintHexChar(data, 4);
+        }
+        else
+        {
+          Serial.println("Unable to read the requested page!");
+        }
+      }
+    }
+    else
+    {
+      Serial.println("This doesn't seem to be an NTAG203 tag (UUID length != 7 bytes)!");
+    }
+
+    // Wait a bit before trying again
+    Serial.println("\n\nSend a character to scan another tag!");
+    Serial.flush();
+    while (!Serial.available());
+    while (Serial.available()) {
+    Serial.read();
+    }
+    Serial.flush();
+  }
+}
+
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/ntag2xx_updatendef/ntag2xx_updatendef.ino b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/ntag2xx_updatendef/ntag2xx_updatendef.ino
new file mode 100644
index 0000000..3616686
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/ntag2xx_updatendef/ntag2xx_updatendef.ino
@@ -0,0 +1,212 @@
+/**************************************************************************/
+/*!
+    @file     ntag2xx_updatendef.pde
+    @author   KTOWN (Adafruit Industries)
+    @license  BSD (see license.txt)
+
+    This example will wait for any NTAG203 or NTAG213 card or tag,
+    and will attempt to add or update an NDEF URI at the start of the
+    tag's memory.
+
+    This is an example sketch for the Adafruit PN532 NFC/RFID breakout boards
+    This library works with the Adafruit NFC breakout
+      ----> https://www.adafruit.com/products/364
+
+    Check out the links above for our tutorials and wiring diagrams
+    These chips use SPI or I2C to communicate.
+
+    Adafruit invests time and resources providing this open source code,
+    please support Adafruit and open-source hardware by purchasing
+    products from Adafruit!
+*/
+/**************************************************************************/
+#include <Wire.h>
+#include <SPI.h>
+#include <Adafruit_PN532.h>
+
+// If using the breakout with SPI, define the pins for SPI communication.
+#define PN532_SCK  (2)
+#define PN532_MOSI (3)
+#define PN532_SS   (4)
+#define PN532_MISO (5)
+
+// If using the breakout or shield with I2C, define just the pins connected
+// to the IRQ and reset lines.  Use the values below (2, 3) for the shield!
+#define PN532_IRQ   (2)
+#define PN532_RESET (3)  // Not connected by default on the NFC Shield
+
+// Uncomment just _one_ line below depending on how your breakout or shield
+// is connected to the Arduino:
+
+// Use this line for a breakout with a software SPI connection (recommended):
+Adafruit_PN532 nfc(PN532_SCK, PN532_MISO, PN532_MOSI, PN532_SS);
+
+// Use this line for a breakout with a hardware SPI connection.  Note that
+// the PN532 SCK, MOSI, and MISO pins need to be connected to the Arduino's
+// hardware SPI SCK, MOSI, and MISO pins.  On an Arduino Uno these are
+// SCK = 13, MOSI = 11, MISO = 12.  The SS line can be any digital IO pin.
+//Adafruit_PN532 nfc(PN532_SS);
+
+// Or use this line for a breakout or shield with an I2C connection:
+//Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
+
+/*
+    We can encode many different kinds of pointers to the card,
+    from a URL, to an Email address, to a phone number, and many more
+    check the library header .h file to see the large # of supported
+    prefixes!
+*/
+// For a http://www. url:
+char * url = "adafruit.com/blog/";
+uint8_t ndefprefix = NDEF_URIPREFIX_HTTP_WWWDOT;
+
+// for an email address
+//char * url = "mail@example.com";
+//uint8_t ndefprefix = NDEF_URIPREFIX_MAILTO;
+
+// for a phone number
+//char * url = "+1 212 555 1212";
+//uint8_t ndefprefix = NDEF_URIPREFIX_TEL;
+
+void setup(void) {
+  Serial.begin(115200);
+  while (!Serial) delay(10); // for Leonardo/Micro/Zero
+
+  Serial.println("Hello!");
+
+  nfc.begin();
+
+  uint32_t versiondata = nfc.getFirmwareVersion();
+  if (! versiondata) {
+    Serial.print("Didn't find PN53x board");
+    while (1); // halt
+  }
+  // Got ok data, print it out!
+  Serial.print("Found chip PN5"); Serial.println((versiondata>>24) & 0xFF, HEX);
+  Serial.print("Firmware ver. "); Serial.print((versiondata>>16) & 0xFF, DEC);
+  Serial.print('.'); Serial.println((versiondata>>8) & 0xFF, DEC);
+}
+
+void loop(void)
+{
+  uint8_t success;
+  uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 };  // Buffer to store the returned UID
+  uint8_t uidLength;                        // Length of the UID (4 or 7 bytes depending on ISO14443A card type)
+  uint8_t dataLength;
+
+  // Require some user feedback before running this example!
+  Serial.println("\r\nPlace your NDEF formatted NTAG2xx tag on the reader to update the");
+  Serial.println("NDEF record and press any key to continue ...\r\n");
+  // Wait for user input before proceeding
+  while (!Serial.available());
+  // a key was pressed1
+  while (Serial.available()) Serial.read();
+
+  // 1.) Wait for an NTAG203 card.  When one is found 'uid' will be populated with
+  // the UID, and uidLength will indicate the size of the UID (normally 7)
+  success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength);
+
+  // It seems we found a valid ISO14443A Tag!
+  if (success)
+  {
+    // 2.) Display some basic information about the card
+    Serial.println("Found an ISO14443A card");
+    Serial.print("  UID Length: ");Serial.print(uidLength, DEC);Serial.println(" bytes");
+    Serial.print("  UID Value: ");
+    nfc.PrintHex(uid, uidLength);
+    Serial.println("");
+
+    if (uidLength != 7)
+    {
+      Serial.println("This doesn't seem to be an NTAG203 tag (UUID length != 7 bytes)!");
+    }
+    else
+    {
+      uint8_t data[32];
+
+      // We probably have an NTAG2xx card (though it could be Ultralight as well)
+      Serial.println("Seems to be an NTAG2xx tag (7 byte UID)");
+
+      // NTAG2x3 cards have 39*4 bytes of user pages (156 user bytes),
+      // starting at page 4 ... larger cards just add pages to the end of
+      // this range:
+
+      // See: http://www.nxp.com/documents/short_data_sheet/NTAG203_SDS.pdf
+
+      // TAG Type       PAGES   USER START    USER STOP
+      // --------       -----   ----------    ---------
+      // NTAG 203       42      4             39
+      // NTAG 213       45      4             39
+      // NTAG 215       135     4             129
+      // NTAG 216       231     4             225
+
+
+      // 3.) Check if the NDEF Capability Container (CC) bits are already set
+      // in OTP memory (page 3)
+      memset(data, 0, 4);
+      success = nfc.ntag2xx_ReadPage(3, data);
+      if (!success)
+      {
+        Serial.println("Unable to read the Capability Container (page 3)");
+        return;
+      }
+      else
+      {
+        // If the tag has already been formatted as NDEF, byte 0 should be:
+        // Byte 0 = Magic Number (0xE1)
+        // Byte 1 = NDEF Version (Should be 0x10)
+        // Byte 2 = Data Area Size (value * 8 bytes)
+        // Byte 3 = Read/Write Access (0x00 for full read and write)
+        if (!((data[0] == 0xE1) && (data[1] == 0x10)))
+        {
+          Serial.println("This doesn't seem to be an NDEF formatted tag.");
+          Serial.println("Page 3 should start with 0xE1 0x10.");
+        }
+        else
+        {
+          // 4.) Determine and display the data area size
+          dataLength = data[2]*8;
+          Serial.print("Tag is NDEF formatted. Data area size = ");
+          Serial.print(dataLength);
+          Serial.println(" bytes");
+
+          // 5.) Erase the old data area
+          Serial.print("Erasing previous data area ");
+          for (uint8_t i = 4; i < (dataLength/4)+4; i++)
+          {
+            memset(data, 0, 4);
+            success = nfc.ntag2xx_WritePage(i, data);
+            Serial.print(".");
+            if (!success)
+            {
+              Serial.println(" ERROR!");
+              return;
+            }
+          }
+          Serial.println(" DONE!");
+
+          // 6.) Try to add a new NDEF URI record
+          Serial.print("Writing URI as NDEF Record ... ");
+          success = nfc.ntag2xx_WriteNDEFURI(ndefprefix, url, dataLength);
+          if (success)
+          {
+            Serial.println("DONE!");
+          }
+          else
+          {
+            Serial.println("ERROR! (URI length?)");
+          }
+
+        } // CC contents NDEF record check
+      } // CC page read check
+    } // UUID length check
+
+    // Wait a bit before trying again
+    Serial.flush();
+    while (!Serial.available());
+    while (Serial.available()) {
+    Serial.read();
+    }
+    Serial.flush();
+  } // Start waiting for a new ISO14443A tag
+}
+\ No newline at end of file
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/readMifare/readMifare.ino b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/readMifare/readMifare.ino
new file mode 100644
index 0000000..ecd4d28
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/readMifare/readMifare.ino
@@ -0,0 +1,184 @@
+/**************************************************************************/
+/*!
+    @file     readMifare.pde
+    @author   Adafruit Industries
+	@license  BSD (see license.txt)
+
+    This example will wait for any ISO14443A card or tag, and
+    depending on the size of the UID will attempt to read from it.
+
+    If the card has a 4-byte UID it is probably a Mifare
+    Classic card, and the following steps are taken:
+
+    - Authenticate block 4 (the first block of Sector 1) using
+      the default KEYA of 0XFF 0XFF 0XFF 0XFF 0XFF 0XFF
+    - If authentication succeeds, we can then read any of the
+      4 blocks in that sector (though only block 4 is read here)
+
+    If the card has a 7-byte UID it is probably a Mifare
+    Ultralight card, and the 4 byte pages can be read directly.
+    Page 4 is read by default since this is the first 'general-
+    purpose' page on the tags.
+
+
+This is an example sketch for the Adafruit PN532 NFC/RFID breakout boards
+This library works with the Adafruit NFC breakout
+  ----> https://www.adafruit.com/products/364
+
+Check out the links above for our tutorials and wiring diagrams
+These chips use SPI or I2C to communicate.
+
+Adafruit invests time and resources providing this open source code,
+please support Adafruit and open-source hardware by purchasing
+products from Adafruit!
+
+*/
+/**************************************************************************/
+#include <Wire.h>
+#include <SPI.h>
+#include <Adafruit_PN532.h>
+
+// If using the breakout with SPI, define the pins for SPI communication.
+#define PN532_SCK  (2)
+#define PN532_MOSI (3)
+#define PN532_SS   (4)
+#define PN532_MISO (5)
+
+// If using the breakout or shield with I2C, define just the pins connected
+// to the IRQ and reset lines.  Use the values below (2, 3) for the shield!
+#define PN532_IRQ   (2)
+#define PN532_RESET (3)  // Not connected by default on the NFC Shield
+
+// Uncomment just _one_ line below depending on how your breakout or shield
+// is connected to the Arduino:
+
+// Use this line for a breakout with a software SPI connection (recommended):
+Adafruit_PN532 nfc(PN532_SCK, PN532_MISO, PN532_MOSI, PN532_SS);
+
+// Use this line for a breakout with a hardware SPI connection.  Note that
+// the PN532 SCK, MOSI, and MISO pins need to be connected to the Arduino's
+// hardware SPI SCK, MOSI, and MISO pins.  On an Arduino Uno these are
+// SCK = 13, MOSI = 11, MISO = 12.  The SS line can be any digital IO pin.
+//Adafruit_PN532 nfc(PN532_SS);
+
+// Or use this line for a breakout or shield with an I2C connection:
+//Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
+
+// Or use hardware Serial:
+//Adafruit_PN532 nfc(PN532_RESET, &Serial1);
+
+void setup(void) {
+  Serial.begin(115200);
+  while (!Serial) delay(10); // for Leonardo/Micro/Zero
+
+  Serial.println("Hello!");
+
+  nfc.begin();
+
+  uint32_t versiondata = nfc.getFirmwareVersion();
+  if (! versiondata) {
+    Serial.print("Didn't find PN53x board");
+    while (1); // halt
+  }
+  // Got ok data, print it out!
+  Serial.print("Found chip PN5"); Serial.println((versiondata>>24) & 0xFF, HEX);
+  Serial.print("Firmware ver. "); Serial.print((versiondata>>16) & 0xFF, DEC);
+  Serial.print('.'); Serial.println((versiondata>>8) & 0xFF, DEC);
+
+  Serial.println("Waiting for an ISO14443A Card ...");
+}
+
+
+void loop(void) {
+  uint8_t success;
+  uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 };  // Buffer to store the returned UID
+  uint8_t uidLength;                        // Length of the UID (4 or 7 bytes depending on ISO14443A card type)
+
+  // Wait for an ISO14443A type cards (Mifare, etc.).  When one is found
+  // 'uid' will be populated with the UID, and uidLength will indicate
+  // if the uid is 4 bytes (Mifare Classic) or 7 bytes (Mifare Ultralight)
+  success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength);
+
+  if (success) {
+    // Display some basic information about the card
+    Serial.println("Found an ISO14443A card");
+    Serial.print("  UID Length: ");Serial.print(uidLength, DEC);Serial.println(" bytes");
+    Serial.print("  UID Value: ");
+    nfc.PrintHex(uid, uidLength);
+    Serial.println("");
+
+    if (uidLength == 4)
+    {
+      // We probably have a Mifare Classic card ...
+      Serial.println("Seems to be a Mifare Classic card (4 byte UID)");
+
+      // Now we need to try to authenticate it for read/write access
+      // Try with the factory default KeyA: 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF
+      Serial.println("Trying to authenticate block 4 with default KEYA value");
+      uint8_t keya[6] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF };
+
+	  // Start with block 4 (the first block of sector 1) since sector 0
+	  // contains the manufacturer data and it's probably better just
+	  // to leave it alone unless you know what you're doing
+      success = nfc.mifareclassic_AuthenticateBlock(uid, uidLength, 4, 0, keya);
+
+      if (success)
+      {
+        Serial.println("Sector 1 (Blocks 4..7) has been authenticated");
+        uint8_t data[16];
+
+        // If you want to write something to block 4 to test with, uncomment
+		// the following line and this text should be read back in a minute
+        //memcpy(data, (const uint8_t[]){ 'a', 'd', 'a', 'f', 'r', 'u', 'i', 't', '.', 'c', 'o', 'm', 0, 0, 0, 0 }, sizeof data);
+        // success = nfc.mifareclassic_WriteDataBlock (4, data);
+
+        // Try to read the contents of block 4
+        success = nfc.mifareclassic_ReadDataBlock(4, data);
+
+        if (success)
+        {
+          // Data seems to have been read ... spit it out
+          Serial.println("Reading Block 4:");
+          nfc.PrintHexChar(data, 16);
+          Serial.println("");
+
+          // Wait a bit before reading the card again
+          delay(1000);
+        }
+        else
+        {
+          Serial.println("Ooops ... unable to read the requested block.  Try another key?");
+        }
+      }
+      else
+      {
+        Serial.println("Ooops ... authentication failed: Try another key?");
+      }
+    }
+
+    if (uidLength == 7)
+    {
+      // We probably have a Mifare Ultralight card ...
+      Serial.println("Seems to be a Mifare Ultralight tag (7 byte UID)");
+
+      // Try to read the first general-purpose user page (#4)
+      Serial.println("Reading page 4");
+      uint8_t data[32];
+      success = nfc.mifareultralight_ReadPage (4, data);
+      if (success)
+      {
+        // Data seems to have been read ... spit it out
+        nfc.PrintHexChar(data, 4);
+        Serial.println("");
+
+        // Wait a bit before reading the card again
+        delay(1000);
+      }
+      else
+      {
+        Serial.println("Ooops ... unable to read the requested page!?");
+      }
+    }
+  }
+}
+
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/readMifareClassic/readMifareClassic.ino b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/readMifareClassic/readMifareClassic.ino
new file mode 100644
index 0000000..a2edaf8
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/readMifareClassic/readMifareClassic.ino
@@ -0,0 +1,119 @@
+/**************************************************************************/
+/*!
+    @file     readMifareClassic.pde
+    @author   Adafruit Industries
+	@license  BSD (see license.txt)
+
+    This example will wait for any ISO14443A card or tag, and
+    depending on the size of the UID will attempt to read from it.
+
+    If the card has a 4-byte UID it is probably a Mifare
+    Classic card, and the following steps are taken:
+
+    Reads the 4 byte (32 bit) ID of a MiFare Classic card.
+    Since the classic cards have only 32 bit identifiers you can stick
+	them in a single variable and use that to compare card ID's as a
+	number. This doesn't work for ultralight cards that have longer 7
+	byte IDs!
+
+    Note that you need the baud rate to be 115200 because we need to
+	print out the data and read from the card at the same time!
+
+This is an example sketch for the Adafruit PN532 NFC/RFID breakout boards
+This library works with the Adafruit NFC breakout
+  ----> https://www.adafruit.com/products/364
+
+Check out the links above for our tutorials and wiring diagrams
+These chips use SPI to communicate, 4 required to interface
+
+Adafruit invests time and resources providing this open source code,
+please support Adafruit and open-source hardware by purchasing
+products from Adafruit!
+*/
+/**************************************************************************/
+#include <Wire.h>
+#include <SPI.h>
+#include <Adafruit_PN532.h>
+
+// If using the breakout with SPI, define the pins for SPI communication.
+#define PN532_SCK  (2)
+#define PN532_MOSI (3)
+#define PN532_SS   (4)
+#define PN532_MISO (5)
+
+// If using the breakout or shield with I2C, define just the pins connected
+// to the IRQ and reset lines.  Use the values below (2, 3) for the shield!
+#define PN532_IRQ   (2)
+#define PN532_RESET (3)  // Not connected by default on the NFC Shield
+
+// Uncomment just _one_ line below depending on how your breakout or shield
+// is connected to the Arduino:
+
+// Use this line for a breakout with a SPI connection:
+Adafruit_PN532 nfc(PN532_SCK, PN532_MISO, PN532_MOSI, PN532_SS);
+
+// Use this line for a breakout with a hardware SPI connection.  Note that
+// the PN532 SCK, MOSI, and MISO pins need to be connected to the Arduino's
+// hardware SPI SCK, MOSI, and MISO pins.  On an Arduino Uno these are
+// SCK = 13, MOSI = 11, MISO = 12.  The SS line can be any digital IO pin.
+//Adafruit_PN532 nfc(PN532_SS);
+
+// Or use this line for a breakout or shield with an I2C connection:
+//Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
+
+void setup(void) {
+  Serial.begin(115200);
+  while (!Serial) delay(10); // for Leonardo/Micro/Zero
+
+  Serial.println("Hello!");
+
+  nfc.begin();
+
+  uint32_t versiondata = nfc.getFirmwareVersion();
+  if (! versiondata) {
+    Serial.print("Didn't find PN53x board");
+    while (1); // halt
+  }
+  // Got ok data, print it out!
+  Serial.print("Found chip PN5"); Serial.println((versiondata>>24) & 0xFF, HEX);
+  Serial.print("Firmware ver. "); Serial.print((versiondata>>16) & 0xFF, DEC);
+  Serial.print('.'); Serial.println((versiondata>>8) & 0xFF, DEC);
+
+  Serial.println("Waiting for an ISO14443A Card ...");
+}
+
+
+void loop(void) {
+  uint8_t success;
+  uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 };  // Buffer to store the returned UID
+  uint8_t uidLength;                        // Length of the UID (4 or 7 bytes depending on ISO14443A card type)
+
+  // Wait for an ISO14443A type cards (Mifare, etc.).  When one is found
+  // 'uid' will be populated with the UID, and uidLength will indicate
+  // if the uid is 4 bytes (Mifare Classic) or 7 bytes (Mifare Ultralight)
+  success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength);
+
+  if (success) {
+    // Display some basic information about the card
+    Serial.println("Found an ISO14443A card");
+    Serial.print("  UID Length: ");Serial.print(uidLength, DEC);Serial.println(" bytes");
+    Serial.print("  UID Value: ");
+    nfc.PrintHex(uid, uidLength);
+
+    if (uidLength == 4)
+    {
+      // We probably have a Mifare Classic card ...
+      uint32_t cardid = uid[0];
+      cardid <<= 8;
+      cardid |= uid[1];
+      cardid <<= 8;
+      cardid |= uid[2];
+      cardid <<= 8;
+      cardid |= uid[3];
+      Serial.print("Seems to be a Mifare Classic card #");
+      Serial.println(cardid);
+    }
+    Serial.println("");
+  }
+}
+
diff --git a/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/readMifareClassicIrq/readMifareClassicIrq.ino b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/readMifareClassicIrq/readMifareClassicIrq.ino
new file mode 100644
index 0000000..345e317
--- /dev/null
+++ b/.pio/libdeps/esp32-s3-n16r8/Adafruit PN532/examples/readMifareClassicIrq/readMifareClassicIrq.ino
@@ -0,0 +1,156 @@
+/**************************************************************************/
+/*!
+    @file     readMifareClassicIrq.pde
+    @author   Adafruit Industries
+	@license  BSD (see license.txt)
+
+    This example will wait for any ISO14443A card or tag, and
+    depending on the size of the UID will attempt to read from it.
+
+    If the card has a 4-byte UID it is probably a Mifare
+    Classic card, and the following steps are taken:
+
+    Reads the 4 byte (32 bit) ID of a MiFare Classic card.
+    Since the classic cards have only 32 bit identifiers you can stick
+	them in a single variable and use that to compare card ID's as a
+	number. This doesn't work for ultralight cards that have longer 7
+	byte IDs!
+
+    Note that you need the baud rate to be 115200 because we need to
+	print out the data and read from the card at the same time!
+
+This is an example sketch for the Adafruit PN532 NFC/RFID breakout boards
+This library works with the Adafruit NFC breakout
+  ----> https://www.adafruit.com/products/364
+
+Check out the links above for our tutorials and wiring diagrams
+
+This example is for communicating with the PN532 chip using I2C. Wiring
+should be as follows:
+  PN532 SDA -> SDA pin
+  PN532 SCL -> SCL pin
+  PN532 IRQ -> D2
+  PN532 SDA -> 3.3v (with 2k resistor)
+  PN532 SCL -> 3.3v (with 2k resistor)
+  PN532 3.3v -> 3.3v
+  PN532 GND -> GND
+
+Adafruit invests time and resources providing this open source code,
+please support Adafruit and open-source hardware by purchasing
+products from Adafruit!
+*/
+/**************************************************************************/
+#include <Wire.h>
+#include <SPI.h>
+#include <Adafruit_PN532.h>
+
+// If using the breakout with SPI, define the pins for SPI communication.
+#define PN532_SCK  (2)
+#define PN532_MOSI (3)
+#define PN532_SS   (4)
+#define PN532_MISO (5)
+
+// If using the breakout or shield with I2C, define just the pins connected
+// to the IRQ and reset lines.  Use the values below (2, 3) for the shield!
+#define PN532_IRQ   (2)
+#define PN532_RESET (3)  // Not connected by default on the NFC Shield
+
+const int DELAY_BETWEEN_CARDS = 500;
+long timeLastCardRead = 0;
+boolean readerDisabled = false;
+int irqCurr;
+int irqPrev;
+
+// This example uses the IRQ line, which is available when in I2C mode.
+Adafruit_PN532 nfc(PN532_IRQ, PN532_RESET);
+
+void setup(void) {
+  Serial.begin(115200);
+  while (!Serial) delay(10); // for Leonardo/Micro/Zero
+
+  Serial.println("Hello!");
+
+  nfc.begin();
+
+  uint32_t versiondata = nfc.getFirmwareVersion();
+  if (! versiondata) {
+    Serial.print("Didn't find PN53x board");
+    while (1); // halt
+  }
+  // Got ok data, print it out!
+  Serial.print("Found chip PN5"); Serial.println((versiondata>>24) & 0xFF, HEX);
+  Serial.print("Firmware ver. "); Serial.print((versiondata>>16) & 0xFF, DEC);
+  Serial.print('.'); Serial.println((versiondata>>8) & 0xFF, DEC);
+
+  startListeningToNFC();
+}
+
+void loop(void) {
+  if (readerDisabled) {
+    if (millis() - timeLastCardRead > DELAY_BETWEEN_CARDS) {
+      readerDisabled = false;
+      startListeningToNFC();
+    }
+  } else {
+    irqCurr = digitalRead(PN532_IRQ);
+
+    // When the IRQ is pulled low - the reader has got something for us.
+    if (irqCurr == LOW && irqPrev == HIGH) {
+       Serial.println("Got NFC IRQ");
+       handleCardDetected();
+    }
+
+    irqPrev = irqCurr;
+  }
+}
+
+void startListeningToNFC() {
+  // Reset our IRQ indicators
+  irqPrev = irqCurr = HIGH;
+
+  Serial.println("Starting passive read for an ISO14443A Card ...");
+  if (!nfc.startPassiveTargetIDDetection(PN532_MIFARE_ISO14443A)) {
+    Serial.println("No card found. Waiting...");
+  } else {
+    Serial.println("Card already present.");
+    handleCardDetected();
+  }
+}
+
+void handleCardDetected() {
+    uint8_t success = false;
+    uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 };  // Buffer to store the returned UID
+    uint8_t uidLength;                        // Length of the UID (4 or 7 bytes depending on ISO14443A card type)
+
+    // read the NFC tag's info
+    success = nfc.readDetectedPassiveTargetID(uid, &uidLength);
+    Serial.println(success ? "Read successful" : "Read failed (not a card?)");
+
+    if (success) {
+      // Display some basic information about the card
+      Serial.println("Found an ISO14443A card");
+      Serial.print("  UID Length: ");Serial.print(uidLength, DEC);Serial.println(" bytes");
+      Serial.print("  UID Value: ");
+      nfc.PrintHex(uid, uidLength);
+
+      if (uidLength == 4)
+      {
+        // We probably have a Mifare Classic card ...
+        uint32_t cardid = uid[0];
+        cardid <<= 8;
+        cardid |= uid[1];
+        cardid <<= 8;
+        cardid |= uid[2];
+        cardid <<= 8;
+        cardid |= uid[3];
+        Serial.print("Seems to be a Mifare Classic card #");
+        Serial.println(cardid);
+      }
+      Serial.println("");
+
+      timeLastCardRead = millis();
+    }
+
+    // The reader will be enabled again after DELAY_BETWEEN_CARDS ms will pass.
+    readerDisabled = true;
+}